9. The thin ( 3 mm ) thick plastic panel shown in the figure is lowered from a ship to a the ocean floor. The construction site on plastic panel weighs ( 200N) in air and is lowered at a rate of ( 2 m/s ). Assuming the ship Cable panel remains vertically oriented, calculate the tension force in the cable. Take ( p = 1000 * 10 mls), and use; water elastic funcl kg/m', v = 1.31 ing Colam = 1.328/ Re CDeurb = 0.072 / Re

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
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9. The thin ( 3 mm ) thick plastic panel shown
in the figure is lowered from a ship to a
construction site on the ocean floor. The
plastic panel weighs ( 200 N) in air and is
lowered at a rate of ( 2 m/s ). Assuming the
ship
Cble
panel remains vertically oriented, calculate
ing
the tension force in the cable. Take ( p = 1000
* 10* m²/s ), and use;
water Plastic
funel
kg/m', v = 1.31
m
Colam = 1.328 / Re
Cpturb = 0.072 / Re
Transcribed Image Text:9. The thin ( 3 mm ) thick plastic panel shown in the figure is lowered from a ship to a construction site on the ocean floor. The plastic panel weighs ( 200 N) in air and is lowered at a rate of ( 2 m/s ). Assuming the ship Cble panel remains vertically oriented, calculate ing the tension force in the cable. Take ( p = 1000 * 10* m²/s ), and use; water Plastic funel kg/m', v = 1.31 m Colam = 1.328 / Re Cpturb = 0.072 / Re
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